CN106757363A - A kind of method that utilization sintering flue gas desulfurization accessory substance prepares calcium sulfate crystal whiskers - Google Patents
A kind of method that utilization sintering flue gas desulfurization accessory substance prepares calcium sulfate crystal whiskers Download PDFInfo
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- CN106757363A CN106757363A CN201611068287.7A CN201611068287A CN106757363A CN 106757363 A CN106757363 A CN 106757363A CN 201611068287 A CN201611068287 A CN 201611068287A CN 106757363 A CN106757363 A CN 106757363A
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- C—CHEMISTRY; METALLURGY
- C30—CRYSTAL GROWTH
- C30B—SINGLE-CRYSTAL GROWTH; UNIDIRECTIONAL SOLIDIFICATION OF EUTECTIC MATERIAL OR UNIDIRECTIONAL DEMIXING OF EUTECTOID MATERIAL; REFINING BY ZONE-MELTING OF MATERIAL; PRODUCTION OF A HOMOGENEOUS POLYCRYSTALLINE MATERIAL WITH DEFINED STRUCTURE; SINGLE CRYSTALS OR HOMOGENEOUS POLYCRYSTALLINE MATERIAL WITH DEFINED STRUCTURE; AFTER-TREATMENT OF SINGLE CRYSTALS OR A HOMOGENEOUS POLYCRYSTALLINE MATERIAL WITH DEFINED STRUCTURE; APPARATUS THEREFOR
- C30B29/00—Single crystals or homogeneous polycrystalline material with defined structure characterised by the material or by their shape
- C30B29/10—Inorganic compounds or compositions
- C30B29/46—Sulfur-, selenium- or tellurium-containing compounds
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- C—CHEMISTRY; METALLURGY
- C30—CRYSTAL GROWTH
- C30B—SINGLE-CRYSTAL GROWTH; UNIDIRECTIONAL SOLIDIFICATION OF EUTECTIC MATERIAL OR UNIDIRECTIONAL DEMIXING OF EUTECTOID MATERIAL; REFINING BY ZONE-MELTING OF MATERIAL; PRODUCTION OF A HOMOGENEOUS POLYCRYSTALLINE MATERIAL WITH DEFINED STRUCTURE; SINGLE CRYSTALS OR HOMOGENEOUS POLYCRYSTALLINE MATERIAL WITH DEFINED STRUCTURE; AFTER-TREATMENT OF SINGLE CRYSTALS OR A HOMOGENEOUS POLYCRYSTALLINE MATERIAL WITH DEFINED STRUCTURE; APPARATUS THEREFOR
- C30B29/00—Single crystals or homogeneous polycrystalline material with defined structure characterised by the material or by their shape
- C30B29/60—Single crystals or homogeneous polycrystalline material with defined structure characterised by the material or by their shape characterised by shape
- C30B29/62—Whiskers or needles
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- C—CHEMISTRY; METALLURGY
- C30—CRYSTAL GROWTH
- C30B—SINGLE-CRYSTAL GROWTH; UNIDIRECTIONAL SOLIDIFICATION OF EUTECTIC MATERIAL OR UNIDIRECTIONAL DEMIXING OF EUTECTOID MATERIAL; REFINING BY ZONE-MELTING OF MATERIAL; PRODUCTION OF A HOMOGENEOUS POLYCRYSTALLINE MATERIAL WITH DEFINED STRUCTURE; SINGLE CRYSTALS OR HOMOGENEOUS POLYCRYSTALLINE MATERIAL WITH DEFINED STRUCTURE; AFTER-TREATMENT OF SINGLE CRYSTALS OR A HOMOGENEOUS POLYCRYSTALLINE MATERIAL WITH DEFINED STRUCTURE; APPARATUS THEREFOR
- C30B7/00—Single-crystal growth from solutions using solvents which are liquid at normal temperature, e.g. aqueous solutions
- C30B7/10—Single-crystal growth from solutions using solvents which are liquid at normal temperature, e.g. aqueous solutions by application of pressure, e.g. hydrothermal processes
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Abstract
The invention discloses a kind of method that utilization sintering flue gas desulfurization accessory substance prepares calcium sulfate crystal whiskers, belong to desulfurizing byproduct resource applied technical field.The present invention is comprised the following steps that:Step one, the removal of impurity is gone, sulfuric acid will be added to carry out pickling after desulfurizing byproduct impurity elimination, the desulfurizing byproduct solution of neutrality is obtained after washing;Step 2, low-temperature oxidation, oxidation unit is added by desulfurizing byproduct solution, and air blowing oxidation is carried out to oxygen-enriched air is blown into desulfurizing byproduct solution;Step 3, allotment slurry, slurry is obtained to water is added in desulfurizing byproduct powder;Step 4, hydro-thermal reaction, by slurry obtained above addition reactor, react at 120 150 DEG C;Step 5, washing and drying, filter cake is obtained to product washing, suction filtration;Dry completion and obtain CaSO4Whisker.Calcium sulphate crystal prepared by this method shows that finish is higher, improves the preparation quality of calcium sulfate crystal whiskers, realizes the value added applications of desulfurizing byproduct.
Description
Technical field
The present invention relates to the resource application field of desulfurizing byproduct, utilized more specifically to one kind and sinter flue gas
The method that desulfurizing byproduct prepares calcium sulfate crystal whiskers.
Background technology
With the lasting fast development of China's steel and iron industry, produced problem of environmental pollution is very prominent, and especially " three
It is useless " discharge aspect enjoys the highest attention of country, by SO in " the steel and iron industry emission standard " of newest revision2Discharge
Used as one of important content, mandatory provisions steel industry wants time limit to realize CER and flue gas qualified discharge for control.In China
Iron and steel enterprise, SO2Discharge capacity is only second to the discharge capacity of power industry and Industrial Boiler, occupies the 3rd, and the SO of iron and steel enterprise's discharge2
Middle 50%-70% comes from sintering circuit, and flue gas desulfurization is sintered using semi-dry desulphurization technology, not only invests low, and desulfurization
Rate is higher, but substantial amounts of desulfurizing byproduct is generated during semi-dry desulphurization, at present, only small part desulfurization both at home and abroad
Accessory substance is utilized, and the overwhelming majority is abandoned, if do not utilized rationally, it will is caused secondary pollution and is taken a large amount of soil
Ground.
With the reinforcement that China environmental protection is realized, research in terms of the comprehensive utilization of sintering deposit flue gas desulfurization byproduct by
Gradually paid close attention to by people, and the utilization of sintering deposit flue gas desulfurization byproduct can be reduced because stacking consumed fund, accounting for
With soil and environmental pollution, the yield of the consumption of the reduction natural gypsum, and then the reduction natural gypsum is preserved the ecological environment.Cause
This, many colleges and universities and enterprise have carried out substantial amounts of research to sintering deposit flue gas desulfurization byproduct comprehensive utilization aspect, such as using burning
Knot flue gas desulfurization byproduct prepares sulfuric acid, cement retarder, gypsum building material and calcium sulfate crystal whiskers etc..Wherein, using sintering
Flue gas desulfurization byproduct prepares calcium sulfate crystal whiskers with added value higher, and calcium sulfate crystal whiskers are grown with single crystal form
Chopped fiber is planted, it has uniform cross section, and complete profile and highly perfect internal structure are excellent compared with glass fibre
Point is that it has high intensity, trickle size, is more easy to be combined with the organic high molecular compound such as resin, rubber, plastics,
And the presentation quality of product is excellent.Can be widely used for automobile, Aero-Space, chemical industry, metallurgy, national defence, machinery, electrically, ship,
The numerous areas such as oil and building materials.Desulfurated plaster can not only be reduced to environment as raw material prepares calcium sulfate crystal whiskers with desulfurated plaster
Pollution, can also save natural gypsum resource, and for the high value added utilization of desulfurated plaster opens new way, but it is existing
The method that some desulfurizing byproducts prepare calcium sulfate crystal whiskers is not perfect so that second-rate, the serious limitation of calcium sulfate crystal whiskers
The high efficient resourcing application of desulfurizing byproduct.
Through patent retrieval, the Shi Peiyang of Northeastern University has been also carried out first closing research, and has applied for Patents, using sintering
Ore deposit flue gas desulfurization byproduct prepares the method (application number of calcium sulfate crystal whiskers:201010545829.1;The applying date:2010.11.16)
With the method (application number that calcium sulfate crystal whiskers are prepared using desulfurized gesso of flue gas:200810011193.5;The applying date:
2008.04.25), the method provides a kind of approach for the resource application of desulfurizing byproduct.Additionally, one kind utilizes semidry method
Desulphurization and spent acid prepare the technique and device (application number of crystal whisker of gypsum:201210405335.2, the applying date:
2012.10.22), the resource application of desulfurizing byproduct is realized.But, the calcium sulfate crystal whiskers that existing method production is obtained
It is second-rate, limit the value added applications of desulfurizing byproduct.
The content of the invention
1. the invention technical problem to be solved
It is an object of the invention to overcome in the prior art, the preparation method during whisker is prepared using desulfurizing byproduct
It is not perfect, cause the problem of the calcium sulfate crystal whiskers poor-performing for preparing, there is provided one kind utilizes sintering flue gas desulfurization by-product
The method that thing prepares calcium sulfate crystal whiskers, substantially increases the performance of the calcium sulfate crystal whiskers of preparation, realizes the height of desulfurizing byproduct
Added value application.
2. technical scheme
To reach above-mentioned purpose, the technical scheme that the present invention is provided is:
The method that a kind of utilization sintering flue gas desulfurization accessory substance of the invention prepares calcium sulfate crystal whiskers, comprises the following steps that:
Step one, go the removal of impurity
Sulfuric acid will be added to carry out pickling after desulfurizing byproduct impurity elimination, pickle is carried out into suction filtration obtains desulfurizing byproduct
Grain, washing 2-4 times is carried out to desulfurizing byproduct particle, and obtain in neutral desulfurizing byproduct solution;
Step 2, low-temperature oxidation
Desulfurizing byproduct solution is added into oxidation unit, air blowing oxygen is carried out to oxygen-enriched air is blown into desulfurizing byproduct solution
Change, interval grinding is carried out to desulfurizing byproduct particle during air blowing oxidation, and control the oxidation temperature of desulfurizing byproduct solution
Spend is 50-90 DEG C;
Step 3, allotment slurry
The desulfurizing byproduct solution of step 2 is dried and obtains desulfurizing byproduct powder, in desulfurizing byproduct powder
Water is added, and it is 1/6-1/10 to control solid-to-liquid ratio;Stirring makes its fully emulsified prepared slurry;
Step 4, hydro-thermal reaction
By in slurry obtained above addition reactor, lower reaction 60- is carried out under 120-150 DEG C of airtight condition
180min, and obtain product;
Step 5, washing and drying
Product is washed 1-3 times, suction filtration obtains filter cake;Filter cake is placed in drying box is again dried, drying is completed
To CaSO4Whisker.
Preferably, during being washed in described step five, the water temperature for washing is 80-100 DEG C.
Preferably, mixing speed during described step four hydro-thermal reaction is 15-25r/min.
Preferably, dilute sulfuric acid regulation PH to 3.5-5.3 is added in step 3.
Preferably, the oxygen volume ratio in the oxygen-enriched air in described step two is 40-60%.
Preferably, oxidation unit includes
Oxidation unit, the oxidation unit includes oxidation air blowing part and grinding oxidation chamber, wherein oxidation air blowing part position
In the bottom of grinding oxidation chamber, oxidation air blowing part is used to blast oxygen-enriched air, described grinding oxygen to grinding oxidation chamber
Change cavity to be made up of arc ground section and milling gap section;
Agitation grinding unit, the agitation grinding unit includes motor and agitation grinding blade, described motor
On be provided with agitation grinding blade, the agitation grinding blade it is provided circumferentially about have blade grind circular arc;Above-mentioned agitation grinding
Blade is located in grinding oxidation chamber, and the blade grinding circular arc of agitation grinding blade is engaged with arc ground section, is driving
There is grinding motion with arc ground section in the driving inferior lobe slice lapping circular arc of motor.
Preferably, described oxidation unit also includes cone-shaped collection storehouse, and the cone-shaped collection storehouse is back taper, described oxidation
Air blowing part is connected by cone-shaped collection storehouse with grinding oxidation chamber.
Preferably, described agitation grinding unit also includes motor driving shaft and blade connecting rod, described motor
It is connected with blade connecting rod by motor driving shaft, agitation grinding blade is provided with the blade connecting rod.
Preferably, it is described to concretely comprise the following steps:
A, by desulfurizing byproduct solution add oxidation unit among, desulfurizing byproduct sinks down into bottom under gravity
In cone-shaped collection storehouse;
Oxygen-enriched air is blown into oxidation unit by B, oxidation air blowing part, under the driving of oxygen-enriched air, is deposited on taper receipts
The desulfurizing byproduct particle of Ji Cang is moved in the grinding oxidation chamber at the top of oxidation unit, in agitation grinding blade Stirring
In the presence of, desulfurizing byproduct particle moves to the inner wall edge position of grinding oxidation chamber;
C, carry out interval grinding to desulfurizing byproduct particle in the inner wall edge of grinding oxidation chamber, described interval grinding
When moving to arc ground section for desulfurizing byproduct particle, the blade of the inwall and agitation grinding blade that grind oxidation chamber grinds
There is extrusion and collision in circular arc, the indissoluble thing of desulfurizing byproduct particle surface is ground into removal, the desulfurizing byproduct particle after grinding
Separated with blade grinding circular arc in milling gap section, oxygen-enriched air and desulfurizing byproduct particle internal-response, then desulfurization by-product
There is regrinding, oxidation when moving to arc ground section again in composition granule.
Preferably, the temperature of described oxygen-enriched air is 60-150 DEG C.
3. beneficial effect
The technical scheme provided using the present invention, compared with existing known technology, with following remarkable result:
(1) method that a kind of utilization sintering flue gas desulfurization accessory substance of the invention prepares calcium sulfate crystal whiskers, by desulfurization
The fully oxidized of accessory substance is modified, and improves the purity of calcium sulfate in desulfurizing byproduct, is that the good whisker of subsequent growth is carried out
Material base, the solid-to-liquid ratio that the slurry of Desulphurization is strictly controlled during slurry is allocated is 1/6-1/10, is then selected
Lower reaction 60-180min is carried out under 120-150 DEG C of airtight condition so that the Calcium Sulfate Whiskers of preparation are less than 1 μm, major diameter
Than reaching 80, the theoretical strength of the intensity of calcium sulfate crystal whiskers reaches 0.02E-0.05E, shows that finish is higher, substantially increases
The performance of calcium sulfate crystal whiskers, realizes the value added applications of desulfurizing byproduct;
(2) method that a kind of utilization sintering flue gas desulfurization accessory substance of the invention prepares calcium sulfate crystal whiskers, in hydro-thermal reaction
During being washed after end, creative proposing uses water temperature to be washed for 80-100 DEG C of water, so as to improve sulphur
Sour calcium pyroborate surface smoothness, reduces the plane of disruption of the calcium sulfate crystal whiskers of preparation, further increases calcium sulfate crystal whiskers preparation
Quality, improve the performance of whisker;
(3) method that a kind of utilization sintering flue gas desulfurization accessory substance of the invention prepares calcium sulfate crystal whiskers, in the mistake of oxidation
Interval grinding is carried out in journey, the indissoluble thing of desulfurizing byproduct particle surface is ground into removal, that is, will be attached to desulfurizing byproduct
The calcium sulfate on grain surface is removed in the presence of mechanical force grinding so that the calcium sulfite inside particle is exposed to particle
Surface, promotes the contact of oxygen molecule and calcium sulfite surface, so as to accelerate and promote the calcium sulfite inside particle
Oxidation, and substantially increase the oxygenation efficiency of calcium sulfate in desulfurizing byproduct so that SO3 2-Oxygenation efficiency reach 78.52% so that
Desulfurizing byproduct is effectively modified.
Brief description of the drawings
Fig. 1 is the overall structure diagram of oxidation unit of the invention;
Fig. 2 is the schematic diagram of the agitation grinding unit of oxidation unit of the invention;
Fig. 3 is the elevational schematic view of agitation grinding unit of the invention;
Fig. 4 is the structural representation of embodiments of the invention 5;
Fig. 5 is the structural representation of embodiments of the invention 6;
Fig. 6 is the structural representation of embodiments of the invention 7;
Fig. 7 is the flow chart of the method that a kind of utilization sintering flue gas desulfurization accessory substance of the invention prepares calcium sulfate crystal whiskers;
Fig. 8 is the scanning electron microscopic picture of calcium sulfate crystal whiskers prepared by embodiments of the invention 1;
Fig. 9 is the scanning electron microscopic picture of calcium sulfate crystal whiskers prepared by comparative example of the invention 1;
Figure 10 is the scanning electron microscopic picture of calcium sulfate crystal whiskers prepared by prior art.
Label declaration in schematic diagram:
100th, oxidation unit;110th, air blowing part is aoxidized;111st, bottom blowing stomata;120th, cone-shaped collection storehouse;130th, oxygen is ground
Change cavity;131st, arc ground section;132nd, milling gap section;133rd, gap section gas hole;140th, heating water bath case;
200th, agitation grinding unit;210th, motor;220th, motor driving shaft;221st, drive shaft top blast stomata;230、
Blade connecting rod;231st, connecting rod top blast stomata;232nd, connecting rod horizontal air hole;240th, agitation grinding blade;241st, blade falls
Angle;242nd, blade grinding circular arc.
Specific embodiment
Hereafter the detailed description to exemplary embodiment of the invention with reference to accompanying drawing, and the accompanying drawing forms of description
Point, show enforceable exemplary embodiment of the invention as an example in the figure.Although these exemplary embodiment quilts
Fully describe in detail to enable that those skilled in the art implement the present invention, it is to be understood that can realize other embodiment and
Can without departing from the spirit and scope of the present invention to the present invention various changes can be made.Hereafter to embodiments of the invention
More detailed description is not limited to required the scope of the present invention, and does not limit just to being illustrated and right
The description of the features of the present invention and feature, to propose to perform best mode of the invention, and is sufficient so that those skilled in the art
The present invention can be implemented.Therefore, the scope of the invention is only defined by the appended claims.
Hereafter detailed description of the present invention and example embodiment can more fully understand with reference to accompanying drawing, wherein of the invention
Element and feature are identified by reference.
Embodiment 1
The method that a kind of utilization sintering flue gas desulfurization accessory substance of the invention prepares calcium sulfate crystal whiskers, comprises the following steps that:
Step one, go the removal of impurity
Water sieve is carried out to desulfurizing byproduct using the round-hole mesh of 100 mesh, and by the Impurity removal of bulky grain, by desulfurization by-product
Sulfuric acid is added after thing impurity elimination carries out pickling, and pickle is carried out into vacuum filtration obtains desulfurizing byproduct particle, to desulfurizing byproduct
Particle carries out washing 2-4 times, the present embodiment preferably 3 times, and obtains in neutral desulfurizing byproduct solution;Wherein described desulfurization
Accessory substance is the desulfurizing byproduct of sintering flue gas dry desulfurizing or semi-dry desulphurization in Ore Sintering Process, in water-washing process
Water is deionized water.
Step 2, low-temperature oxidation
Desulfurizing byproduct solution is added into oxidation unit, air blowing oxygen is carried out to oxygen-enriched air is blown into desulfurizing byproduct solution
Change, interval grinding is carried out to desulfurizing byproduct particle during air blowing oxidation, and control the oxidation temperature of desulfurizing byproduct solution
Spend is 90 DEG C;In particular, air blowing oxidation step is as follows:
A, by desulfurizing byproduct solution add oxidation unit among, desulfurizing byproduct sinks down into bottom under gravity
In cone-shaped collection storehouse 120;
Oxygen-enriched air is blown into oxidation unit by B, oxidation air blowing part 110, under the driving of oxygen-enriched air, is deposited on taper
The desulfurizing byproduct particle of collecting bin 120 is moved in the grinding oxidation chamber 130 at the top of oxidation unit, in agitation grinding blade
In the presence of 240 Stirrings, desulfurizing byproduct particle moves to the inner wall edge position of grinding oxidation chamber 130;
C, grinding oxidation chamber 130 inner wall edge interval grinding is carried out to desulfurizing byproduct particle, be intermittently ground to
When desulfurizing byproduct particle moves to arc ground section 131, the inwall and agitation grinding blade 240 of oxidation chamber 130 are ground
There is extrusion and collision in blade grinding circular arc 242, desulfurizing byproduct particle grinds circular arc in the inwall of arc ground section 131 with blade
Under 242 extruding, collision effect, the indissoluble thing of desulfurizing byproduct particle surface is ground into removal, the desulfurizing byproduct after grinding
Particle is separated in milling gap section 132 with blade grinding circular arc 242, and internal calcium sulfite oxidation is sulfuric acid by oxygen-enriched air
, there is regrinding, oxidation when then desulfurizing byproduct particle moves to arc ground section 131 again in calcium.Wherein oxygen-enriched air
Temperature be 150 ± 5 DEG C, 150 ± 5 DEG C of oxidizing gas is that the desulfurizing byproduct solution ground in oxidation chamber 130 is added
Heat, the oxygen volume ratio in oxygen-enriched air is 60%.
The oxygenation efficiency of the desulfurizing byproduct of table 1
Sample ID | SO3 2-Oxygenation efficiency |
Prior art | 40.20% |
Embodiment 1 | 78.52% |
During recycling desulfurizing byproduct prepares calcium sulfate crystal whiskers, it is impossible to directly using calcium sulfite
(CaSO3) calcium sulfate crystal whiskers are prepared, therefore treatment is modified using desulfurizing byproduct, wherein described modification is to de-
Sulphur accessory substance carries out oxidation processes so that the calcium sulfite (CaSO in desulfurizing byproduct3) it is converted into calcium sulfate (CaSO4).Such as table
Shown in 1, existing method for oxidation in oxidation modification desulfurizing byproduct, SO3 2-Oxygenation efficiency be only 40.20%, cause SO3 2-'s
Oxygenation efficiency is relatively low, and causes the utilization ratio of desulfurizing byproduct poor;And using the oxidation unit of the present embodiment, by oxidation
During carry out interval grinding, the indissoluble thing of desulfurizing byproduct particle surface is ground into removal, that is, will be attached to desulfurization by-product
The calcium sulfate on composition granule surface is removed in the presence of mechanical force grinding so that the calcium sulfite inside particle is exposed to
Particle surface, promotes the contact of oxygen molecule and calcium sulfite surface, so as to accelerate and promote the sulfurous acid inside particle
The oxidation of calcium, and substantially increase the oxygenation efficiency of calcium sulfate in desulfurizing byproduct so that SO3 2-Oxygenation efficiency reach 78.52%,
It is that the good whisker of subsequent growth carries out material base so as to substantially increase the purity of calcium sulfate in desulfurizing byproduct.
Step 3, allotment slurry
The desulfurizing byproduct solution of step 2 is dried and obtains desulfurizing byproduct powder, by desulfurizing byproduct powder with
Medium crystallization agent adds water in mixing backward mixture, and it is 1/8 to control solid-to-liquid ratio;It is 5.0 to add dilute sulfuric acid regulation PH, and stirring makes it
Fully emulsified prepared slurry;
Step 4, hydro-thermal reaction
By in slurry obtained above addition reactor, lower reaction 120min is carried out under 140 ± 5 DEG C of airtight condition,
And obtain product;Mixing speed during hydro-thermal reaction is 15-25r/min, preferably 20r/min.
Step 5, washing and drying
Product is washed 1-3 times, preferably 2 times, during washing, the water temperature for washing is 90 DEG C, and suction filtration is obtained
To filter cake, obtain cleaning filter cake using absolute ethyl alcohol after filter cake, so as to by fat-soluble Impurity removal;Filter cake is placed in again dry
Dried in dry case, wherein the drying temperature of drying box is 90 DEG C, dries completion and obtains CaSO4Whisker, the whisker for preparing is such as
Shown in Fig. 8.
Figure 10 is the scanning electron microscopic picture of the calcium sulfate crystal whiskers prepared using prior art, as seen from Figure 10 using existing
The calcium sulfate crystal whiskers particle diameter that technology is prepared is thick, the more particle of calcium sulfate crystal whiskers surface attachment so that calcium sulfate crystal whiskers table
The bright and clean degree in face is poor, greatly reduces the intensity of calcium sulfate crystal whiskers so that the calcium sulfate crystal whiskers for preparing are susceptible to break
Split.Fig. 8 can be seen that the Calcium Sulfate Whiskers for preparing using the present embodiment less than 1 μm relative to Figure 10, draw ratio
80 are reached, the theoretical strength of the intensity of calcium sulfate crystal whiskers reaches 0.02E-0.05E, shows that finish is higher, improves calcium sulfate
The preparation quality of whisker, meets commercial Application requirement, realizes the value added applications of desulfurizing byproduct.
Comparative example 1
The substance of this comparative example is with embodiment 1, difference:During being washed in step 5, for water
The water temperature washed is room temperature, and as 20 DEG C, suction filtration obtains filter cake, and filter cake is cleaned using absolute ethyl alcohol after obtaining filter cake, so that will
Fat-soluble Impurity removal;Filter cake is placed in drying box is again dried, wherein the drying temperature of drying box is 90 DEG C, dries and completes
Obtain CaSO4Whisker, the whisker for preparing is as shown in Figure 9.
Comparative example 1 is used for the calcium sulfate crystal whiskers that water temperature is prepared for room temperature washed, and is found out by Fig. 9 and Fig. 8 contrasts, schemes
9 surfaces have a small amount of crackle, and a small amount of particle of calcium sulfate crystal whiskers surface attachment has caused calcium sulfate crystal whiskers any surface finish degree
Reduce, have impact on the performance of calcium sulfate crystal whiskers.But, Fig. 9 still has quality higher relative to Figure 10.
For the problem, inventor is also very surprised in the course of the study, but produces the mechanism of the problem still unclear
It is clear, it is that this applicant carries out multiple seminar, analysis discusses the reaction mechanism for producing the problem, and thinks to produce the machine of the problem
Reason be probably due to wash water temperature it is relatively low so that the calcium sulfate crystal whiskers for preparing are susceptible to break during washing
Split so that crackle occur on whisker surface, and cause that less particle is attached to whisker surface, causing makes calcium sulfate crystal whiskers surface
Bright and clean degree decreases.
Embodiment 2
The oxidation unit of the present embodiment includes oxidation unit 100 and agitation grinding unit 200, and wherein oxidation unit 100 is wrapped
Oxidation air blowing part 110, cone-shaped collection storehouse 120 and grinding oxidation chamber 130 are included, wherein oxidation air blowing part 110 is located at grinding
The bottom of oxidation chamber 130, oxidation air blowing part 110 is used to blast oxygen-enriched air, oxidation air blowing portion to grinding oxidation chamber 130
4-8 layers of Ceramic Balls are laid in part 110, preferably 5 layers, Ceramic Balls promote being uniformly distributed for oxygen-enriched air;Grinding oxidation chamber
130 are made up of arc ground section 131 and milling gap section 132;Above-mentioned cone-shaped collection storehouse 120 is back taper, oxidation air blowing portion
Part 110 is connected by cone-shaped collection storehouse 120 with grinding oxidation chamber 130.Bottom blowing stomata is provided with oxidation air blowing part 110
111, bottom blowing stomata 111 is used to be blown into oxygen-enriched air in grinding oxidation chamber 130.
After desulfurizing byproduct solution is added into oxidation unit, desulfurizing byproduct sinks down into bottom under gravity, due to
Cone-shaped collection storehouse 120 is back taper, and desulfurizing byproduct particle ash is automatically gathered in cone-shaped collection storehouse 120 under gravity
In, oxygen-enriched air is blown into oxidation unit by oxidation air blowing part 110, under the driving of oxygen-enriched air, is deposited on cone-shaped collection storehouse
120 desulfurizing byproduct particle is moved in the grinding oxidation chamber 130 at the top of oxidation unit, is revolved in agitation grinding blade 240
Turn in the presence of stirring, desulfurizing byproduct particle moves to the inner wall edge position of grinding oxidation chamber 130 and oxidation occurs instead
Should, it is gathered in once more in the cone-shaped collection storehouse 120 of bottom under gravity after the oxidation of partial desulfurization byproduct particles, bottom
Oxidation air blowing part 110 desulfurizing byproduct particle is blown afloat again, so as to promote the fully oxidized of desulfurizing byproduct particle.
The agitation grinding unit 200 of the present embodiment includes motor driving shaft 220, blade connecting rod 230, motor 210
With agitation grinding blade 240, agitation grinding blade 240 is provided with described motor 210, specific description is:Drive
Motor 210 is connected by motor driving shaft 220 with blade connecting rod 230, and blade connecting rod 230 is located under motor driving shaft 220
Portion, is provided with agitation grinding blade 240 in the blade connecting rod 230, agitation grinding blade 240 can be with motor driving shaft 220
Center of rotation is rotated, and the provided circumferentially about of the agitation grinding blade 240 has blade to grind circular arc 242;Above-mentioned agitation grinding leaf
Piece 240 is located in grinding oxidation chamber 130, and the blade of agitation grinding blade 240 grinds circular arc 242 and arc ground section 131
It is engaged, grinding motion occurs in driving inferior lobe slice lapping circular arc 242 and the arc ground section 131 of motor 210.
In grinding oxidizing process, the calcium sulfite of particle surface is first anti-with oxygen during the oxidation of desulfurizing byproduct particle
Calcium sulfate should be generated, because calcium sulfate is slightly soluble in the aqueous solution, particle surface is attached to after calcium sulfite oxidation generation calcium sulfate, hindered
Oxygen molecule is stopped to the diffusion mass transfer inside desulfurizing byproduct particle, so as to hinder the abundant of the calcium sulfite inside particle
Oxidation;When desulfurizing byproduct particle moves to arc ground section 131, the inwall and agitation grinding blade of oxidation chamber 130 are ground
There is extrusion and collision in 240 blade grinding circular arc 242, desulfurizing byproduct particle grinds in the inwall of arc ground section 131 with blade
Under extruding, the collision effect of rounding arc 242, the indissoluble thing of desulfurizing byproduct particle surface is ground into removal, that is, will be attached to take off
The calcium sulfate on sulphur byproduct particles surface is removed in the presence of mechanical force grinding so that the calcium sulfite inside particle
Exposed to particle surface, the contact of oxygen molecule and calcium sulfite surface is promoted, so as to accelerate and promote inside particle
The oxidation of calcium sulfite.Desulfurizing byproduct all the time in grinding during, then due to grinding during agitation grinding blade
Gap between 240 and the grinding inwall of oxidation chamber 130 is smaller, and the bubble of oxygen-enriched air is difficult to be ground into stirring in process of lapping
Among gap between mill blade 240 and the grinding inwall of oxidation chamber 130 so that in process of lapping, desulfurizing byproduct particle
It is difficult to be combined generation oxidation reaction with oxygen.Desulfurizing byproduct particle after grinding grinds circular arc in milling gap section 132 and blade
242 are separated, and internal calcium sulfite oxidation is calcium sulfate by oxygen-enriched air, and then desulfurizing byproduct particle moves to arc again
There is regrinding, oxidation during ground section 131.The interval grinding of the proposition of inventor's innovation substantially increases the oxygen of oxidizing process
Change efficiency, that is, will attach to oxide surface calcium sulfate grinding removal after, desulfurizing byproduct particle as early as possible with agitation grinding leaf
Piece 240 is separated, and so as to promote contact of the desulfurizing byproduct particle with oxygen, accelerates oxidation efficiency.
The arc ground section 131 of the present embodiment is equal to arc ground section with the distance of the center of rotation of agitation grinding blade 240
131 with the distance of the center of rotation of agitation grinding blade 240, the center of rotation is the axle center of motor driving shaft 220, and arc grinds
The arc radius for grinding section 131 are identical with the arc radius of blade grinding circular arc 242, and described milling gap section 132 is ground with stirring
The distance of the center of rotation of blade 240 is ground more than arc ground section 131 and the distance of the center of rotation of agitation grinding blade 240.
The cross section that oxidation chamber 130 is ground in this implementation is ellipse, is arc at described oval minor axis vertex
Shape ground section 131, agitation grinding blade 240 and grinding oxidation chamber 130 joint at oval minor axis vertex, blade grinds
There is relative motion in rounding arc 242, and produce extruding force to desulfurizing byproduct particle with arc ground section 131, by desulfurization by-product
Composition granule attrition crushing, blade grinding circular arc 242 leaves and enters milling gap section 132 at the minor axis vertex of ellipse, now
Desulfurizing byproduct particle is separated with blade grinding circular arc 242, and oxidation reaction occurs.
Embodiment 3
The substance of the present embodiment is with embodiment 2, difference:Blade is provided with agitation grinding blade 240
Chamfering 241, during oxidation is ground, under the driving of agitation grinding blade 240, desulfurizing byproduct particle moves to arc and grinds
Gap between mill section 131 and blade chamfering 241, in follow-up motion process, desulfurizing byproduct particle continues to move to arc
Between ground section 131 and blade grinding circular arc 242, then desulfurizing byproduct particle carries out mechanical lapping, and blade chamfering 241 promotes
Desulfurizing byproduct particle carries out mechanical lapping.
Embodiment 4
The substance of the present embodiment is with embodiment 2, difference:The bottom of motor driving shaft 220 is provided with driving
Axle top blast stomata 221 (as shown in Figure 3), drive shaft top blast stomata 221 equally can be by oxygen-enriched air during grinding oxidation
Grinding oxidation chamber 130 is blown into, and drive shaft top blast stomata 221 is located at same axis with the geometric center of bottom blowing stomata 111
On, under the collective effect of drive shaft top blast stomata 221 and bottom blowing stomata 111, desulfurizing byproduct particle and liquid are constantly by grinding
The central motion of oxidation chamber 130 is ground to the arc ground section 131 for grinding oxidation chamber 130, promotes desulfurizing byproduct particle
There is mechanical lapping in arc ground section 131, so as to accelerate the oxidation effectiveness of desulfurizing byproduct particle.
It is worth further illustrating, the bottom of blade connecting rod 230 is provided with connecting rod top blast stomata 231, the connection
Downwards, i.e., air-flow from top to bottom enters desulfurizing byproduct solution (as shown in Figure 2) to the blowing direction of bar top blast stomata 231;In addition, leaf
Connecting rod horizontal air hole 232 is provided with the side of piece connecting rod 230, the outgassing direction of the connecting rod horizontal air hole 232 is parallel
In the oxygen-enriched air that horizontal plane, connecting rod horizontal air hole 232 are sprayed into, desulfurizing byproduct particle is not only promoted with oxygen molecule
Mixing, and promote desulfurizing byproduct particle with water movement to the marginal position for grinding oxidation chamber 130, accelerate desulfurization
The grinding of byproduct particles, oxidizing process.
Embodiment 5
As shown in figure 4, the substance of the present embodiment is with embodiment 2, difference is:The present embodiment grinds oxidation chamber
Body 130 is made up of 2 arc ground sections 131 and 2 milling gap sections 132, and wherein milling gap section 132 is rectangle channel-shaped.
Embodiment 6
As shown in figure 5, the substance of the present embodiment is with embodiment 2, difference is:The present embodiment grinds oxidation chamber
Body 130 is made up of 4 arc ground sections 131 and 4 milling gap sections 132, and wherein milling gap section 132 is rectangle channel-shaped, and
Milling gap section 132 on be provided with gap section gas hole 133, the gap section gas hole 133 to grinding oxidation chamber 130 simultaneously
It is blown into oxygen-enriched air, the air blowing flow of the air blowing flow less than bottom blowing stomata 111 of gap section gas hole 133;Prevent desulfurization by-product
Composition granule is long in milling gap 132 residence times of section, so as to promote desulfurization particle to aoxidize and grind.
Embodiment 7
As shown in fig. 6, the substance of the present embodiment is with embodiment 2, difference is:The grinding oxidation of the present embodiment
Heating water bath case 140 is provided with outside cavity 130, the heating water bath case 140 is used to add for grinding oxidation chamber 130 carries out water-bath
Heat.
Embodiment 8
The method that a kind of utilization sintering flue gas desulfurization accessory substance of the present embodiment prepares calcium sulfate crystal whiskers, specific steps are such as
Under:
Step one, go the removal of impurity
Sulfuric acid will be added to carry out pickling after desulfurizing byproduct impurity elimination, pickle is carried out into vacuum filtration obtains desulfurizing byproduct
Particle, 4 washings is carried out to desulfurizing byproduct particle, and obtain in neutral desulfurizing byproduct solution;
Step 2, low-temperature oxidation
Desulfurizing byproduct solution is added into oxidation unit, air blowing oxygen is carried out to oxygen-enriched air is blown into desulfurizing byproduct solution
Change, interval grinding is carried out to desulfurizing byproduct particle during air blowing oxidation, and control the oxidation temperature of desulfurizing byproduct solution
Spend is 80 DEG C;Wherein the temperature of oxygen-enriched air is 80 ± 5 DEG C, and aids in heating water bath, and heating water bath case 140 is grinding oxidation chamber
Desulfurizing byproduct solution in body 130 is heated, and the oxygen volume ratio in oxygen-enriched air is 40%, and the time of air blowing oxidation is
3h。
Step 3, allotment slurry
The desulfurizing byproduct solution of step 2 is dried and obtains desulfurizing byproduct powder, by desulfurizing byproduct powder with
Medium crystallization agent adds water in mixing backward mixture, and it is 1/6 to control solid-to-liquid ratio;It is 3.5 to add dilute sulfuric acid regulation PH, and stirring makes it
Fully emulsified prepared slurry;
Medium crystallization agent wherein is additionally added in desulfurizing byproduct, the addition of medium crystallization agent is 0.5g in every 50g desulfurizing byproducts,
Described medium crystallization agent is magnesium chloride.
Step 4, hydro-thermal reaction
By in slurry obtained above addition reactor, lower reaction 60min is carried out under 120 ± 5 DEG C of airtight condition, and
Obtain product;Mixing speed during hydro-thermal reaction is 15-25r/min, preferably 20r/min.
Step 5, washing and drying
Product is washed 1-3 times, preferably 2 times, during washing, the water temperature for washing is 80 DEG C, and suction filtration is obtained
To filter cake, filter cake is cleaned using absolute ethyl alcohol after obtaining filter cake, so as to the organic impurities such as silicone oil be removed;Filter cake is placed in again
Dried in drying box, wherein the drying temperature of drying box is 80 DEG C, dries completion and obtains CaSO4Whisker, the CaSO for now obtaining4
Whisker is based on calcium sulphate dihydrate, if half-H 2 O calcium sulphate need to be prepared, need to be calcined 4-6h at 500-600 DEG C.
Embodiment 9
The method that a kind of utilization sintering flue gas desulfurization accessory substance of the present embodiment prepares calcium sulfate crystal whiskers, specific steps are such as
Under:
Step one, go the removal of impurity
Sulfuric acid will be added to carry out pickling after desulfurizing byproduct impurity elimination, pickle is carried out into vacuum filtration obtains desulfurizing byproduct
Particle, washing 2 times is carried out to desulfurizing byproduct particle, and obtain in neutral desulfurizing byproduct solution;
Step 2, low-temperature oxidation
Desulfurizing byproduct solution is added into oxidation unit, air blowing oxygen is carried out to oxygen-enriched air is blown into desulfurizing byproduct solution
Change, interval grinding is carried out to desulfurizing byproduct particle during air blowing oxidation, and control the oxidation temperature of desulfurizing byproduct solution
Spend is 50 DEG C;Wherein the temperature of oxygen-enriched air is 60 ± 5 DEG C, and 60 ± 5 DEG C of oxidizing gas is de- in grinding oxidation chamber 130
Sulphur by-product solution is heated, and aids in heating water bath, and heating water bath case 140 is the desulfurization pair in grinding oxidation chamber 130
Reaction mixture is heated, and the oxygen volume ratio in oxygen-enriched air is 50%, and the air blowing oxidation time is 3h.
Step 3, allotment slurry
The desulfurizing byproduct solution of step 2 is dried and obtains desulfurizing byproduct powder, by desulfurizing byproduct powder with
Medium crystallization agent adds water in mixing backward mixture, and it is 1/10 to control solid-to-liquid ratio;It is 5.3 to add dilute sulfuric acid regulation PH, and stirring makes
Its fully emulsified prepared slurry;
Medium crystallization agent wherein is additionally added in desulfurizing byproduct, the addition of medium crystallization agent is 0.2g in every 50g desulfurizing byproducts,
Described medium crystallization agent is made up of magnesium chloride and potassium sulfate, and the mass percent of wherein each component is:Magnesium chloride:60%, potassium sulfate:
40%.
Step 4, hydro-thermal reaction
By in slurry obtained above addition reactor, lower reaction 180min is carried out under 150 ± 5 DEG C of airtight condition,
And obtain product;Mixing speed during hydro-thermal reaction is 15-25r/min, preferably 20r/min.
Step 5, washing and drying
Product is washed 1-3 times, preferably 2 times, during washing, the water temperature for washing is 95 DEG C, and suction filtration is obtained
To filter cake, filter cake is cleaned using absolute ethyl alcohol after obtaining filter cake, so as to the organic impurities such as silicone oil be removed;Filter cake is placed in again
Dried in drying box, wherein the drying temperature of drying box is 60 DEG C, dries completion and obtains CaSO4Whisker.
The present invention is described in detail above in conjunction with specific exemplary embodiment.It is understood, however, that can not take off
Various modifications and variations are carried out in the case of the scope of the present invention being defined by the following claims.Detailed description and drawings
Should be to be considered only as it is illustrative and not restrictive, if there is any such modification and modification, then they all will
Fall into the scope of the present invention described here.Additionally, background technology is intended to illustrate the Development Status and meaning of this technology,
It is not intended to limit the present invention or the application and application field of the invention.
It is worth further illustrating, medium crystallization agent can also be magnesium sulfate, magnesium chloride, potassium sulfate, potassium chloride therein one
Plant or two or more combinations.
More specifically, although exemplary embodiment of the invention has been described herein, the invention is not limited in
These embodiments, but including those skilled in the art according to above detailed description it can be appreciated that it is modified, omit,
Any and whole embodiments of (such as between each embodiment) combination, adaptive change and/or replacement.In claim
Restriction can widely be explained according to the language used in claim, and be not limited in foregoing detailed description or in reality
The example described during applying this application, these examples are considered as nonexcludability.For example, in the present invention, term is " preferably
Ground " not exclusively, preferably, here it means that " but be not restricted to that ".It is in office where method or process claims
In any step for enumerating can in any order perform and be not limited to the order proposed in claim.Therefore, the present invention
Scope only should be determined by appended claims and its legal equivalents, rather than by descriptions and examples given above come
It is determined that.
Claims (10)
1. a kind of method that utilization sintering flue gas desulfurization accessory substance prepares calcium sulfate crystal whiskers, it is characterised in that:Comprise the following steps that:
Step one, go the removal of impurity
Sulfuric acid will be added to carry out pickling after desulfurizing byproduct impurity elimination, pickle is carried out into suction filtration obtains desulfurizing byproduct particle, right
Desulfurizing byproduct particle carries out washing 2-4 times, and obtains in neutral desulfurizing byproduct solution;
Step 2, low-temperature oxidation
Desulfurizing byproduct solution is added into oxidation unit, air blowing oxidation is carried out to oxygen-enriched air is blown into desulfurizing byproduct solution,
Carry out interval grinding during air blowing oxidation to desulfurizing byproduct particle, and control the oxidizing temperature of desulfurizing byproduct solution to be
50-90℃;
Step 3, allotment slurry
The desulfurizing byproduct solution of step 2 is dried and obtains desulfurizing byproduct powder, added in desulfurizing byproduct powder
Water, and it is 1/6-1/10 to control solid-to-liquid ratio;Stirring makes its fully emulsified prepared slurry;
Step 4, hydro-thermal reaction
By in slurry obtained above addition reactor, lower reaction 60-180min is carried out under 120-150 DEG C of airtight condition,
And obtain product;
Step 5, washing and drying
Product is washed 1-3 times, suction filtration obtains filter cake;Filter cake is placed in drying box is again dried, dried completion and obtain
CaSO4Whisker.
2. the method that a kind of utilization sintering flue gas desulfurization accessory substance according to claim 1 prepares calcium sulfate crystal whiskers, it is special
Levy and be:During being washed in described step five, the water temperature for washing is 80-100 DEG C.
3. the method that a kind of utilization sintering flue gas desulfurization accessory substance according to claim 2 prepares calcium sulfate crystal whiskers, it is special
Levy and be:Mixing speed during described step four hydro-thermal reaction is 15-25r/min.
4. the method that a kind of utilization sintering flue gas desulfurization accessory substance according to claim 3 prepares calcium sulfate crystal whiskers, it is special
Levy and be:Dilute sulfuric acid regulation PH to 3.5-5.3 is added in step 3.
5. the method that a kind of utilization sintering flue gas desulfurization accessory substance according to claim 4 prepares calcium sulfate crystal whiskers, it is special
Levy and be:Oxygen volume ratio in oxygen-enriched air in described step two is 40-60%.
6. a kind of utilization sintering flue gas desulfurization accessory substance according to claim any one of 1-5 prepares the side of calcium sulfate crystal whiskers
Method, it is characterised in that:Oxidation unit includes
Oxidation unit (100), the oxidation unit (100) includes oxidation air blowing part (110) and grinding oxidation chamber (130), its
, positioned at the bottom of grinding oxidation chamber (130), oxidation air blowing part (110) is for grinding oxygen for middle oxidation air blowing part (110)
Change cavity (130) and blast oxygen-enriched air, described grinding oxidation chamber (130) is by arc ground section (131) and milling gap section
(132) constitute;
Agitation grinding unit (200), the agitation grinding unit (200) includes motor (210) and agitation grinding blade
(240) agitation grinding blade (240), is provided with described motor (210), the circumference of the agitation grinding blade (240)
On be provided with blade grind circular arc (242);
Above-mentioned agitation grinding blade (240) in grinding oxidation chamber (130), and agitation grinding blade (240) blade
Grinding circular arc (242) is engaged with arc ground section (131), in driving inferior lobe slice lapping circular arc (242) of motor (210)
There is grinding motion with arc ground section (131).
7. the method that a kind of utilization sintering flue gas desulfurization accessory substance according to claim 6 prepares calcium sulfate crystal whiskers, it is special
Levy and be:Described oxidation unit (100) also includes cone-shaped collection storehouse (120), and the cone-shaped collection storehouse (120) is back taper, institute
Oxidation air blowing part (110) stated is connected by cone-shaped collection storehouse (120) with grinding oxidation chamber (130).
8. the method that a kind of utilization sintering flue gas desulfurization accessory substance according to claim 7 prepares calcium sulfate crystal whiskers, it is special
Levy and be:Described agitation grinding unit (200) also includes motor driving shaft (220) and blade connecting rod (230), described drive
Dynamic motor (210) is connected by motor driving shaft (220) with blade connecting rod (230), is provided with the blade connecting rod (230)
Agitation grinding blade (240).
9. the method that a kind of utilization sintering flue gas desulfurization accessory substance according to claim 8 prepares calcium sulfate crystal whiskers, it is special
Levy and be:Described concretely comprises the following steps:
A, by desulfurizing byproduct solution add oxidation unit among, desulfurizing byproduct sinks down into the taper of bottom under gravity
In collecting bin (120);
Oxygen-enriched air is blown into oxidation unit by B, oxidation air blowing part (110), under the driving of oxygen-enriched air, is deposited on taper receipts
The desulfurizing byproduct particle of Ji Cang (120) is moved in the grinding oxidation chamber (130) at the top of oxidation unit, in agitation grinding leaf
In the presence of piece (240) Stirring, desulfurizing byproduct particle moves to the inner wall edge position of grinding oxidation chamber (130);
C, grinding oxidation chamber (130) inner wall edge interval grinding is carried out to desulfurizing byproduct particle, described interval is ground
Grind for desulfurizing byproduct particle move to arc ground section (131) when, inwall and the agitation grinding leaf of grinding oxidation chamber (130)
The blade of piece (240) grinds circular arc (242) and extrusion and collision occurs, and the indissoluble thing of desulfurizing byproduct particle surface is ground into removal,
Desulfurizing byproduct particle after grinding is separated in milling gap section (132) with blade grinding circular arc (242), oxygen-enriched air and desulfurization
Byproduct particles internal-response, occur when then desulfurizing byproduct particle moves to arc ground section (131) again regrinding,
Oxidation.
10. the method that a kind of utilization sintering flue gas desulfurization accessory substance according to claim 8 prepares calcium sulfate crystal whiskers, it is special
Levy and be:The temperature of described oxygen-enriched air is 60-150 DEG C.
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CN108998833A (en) * | 2018-08-31 | 2018-12-14 | 安徽工业大学 | A kind of calcium sulfate crystal whiskers preparation system |
CN109082709A (en) * | 2018-08-31 | 2018-12-25 | 安徽工业大学 | A method of utilizing sintering flue gas desulfurization ash one-step synthesis method calcium sulfate crystal whiskers |
CN110541188A (en) * | 2019-10-18 | 2019-12-06 | 郑州中科新兴产业技术研究院 | method for preparing calcium sulfate hemihydrate crystal whisker with high length-diameter ratio by using calcium sulfate dihydrate |
CN115491746A (en) * | 2022-11-01 | 2022-12-20 | 鞍钢金属结构有限公司 | Method and device for preparing calcium sulfate whiskers by using sintering flue gas desulfurization ash |
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CN103055687A (en) * | 2013-01-08 | 2013-04-24 | 浙江天蓝环保技术股份有限公司 | Calcium sulfite oxidation reaction stimulation apparatus and method thereof |
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CN102002756A (en) * | 2010-11-16 | 2011-04-06 | 东北大学 | Method of preparing calcium sulfate whisker by using agglomerate fume desulfurized by-products |
CN102728210A (en) * | 2012-07-11 | 2012-10-17 | 上海交通大学 | Device for forced oxidation treatment of magnesium-method fume desulfurization slag slurry |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN108998833A (en) * | 2018-08-31 | 2018-12-14 | 安徽工业大学 | A kind of calcium sulfate crystal whiskers preparation system |
CN109082709A (en) * | 2018-08-31 | 2018-12-25 | 安徽工业大学 | A method of utilizing sintering flue gas desulfurization ash one-step synthesis method calcium sulfate crystal whiskers |
CN110541188A (en) * | 2019-10-18 | 2019-12-06 | 郑州中科新兴产业技术研究院 | method for preparing calcium sulfate hemihydrate crystal whisker with high length-diameter ratio by using calcium sulfate dihydrate |
CN115491746A (en) * | 2022-11-01 | 2022-12-20 | 鞍钢金属结构有限公司 | Method and device for preparing calcium sulfate whiskers by using sintering flue gas desulfurization ash |
CN115491746B (en) * | 2022-11-01 | 2024-02-23 | 鞍钢实业集团(鞍山)设备运维有限公司 | Method and device for preparing calcium sulfate whisker by using sintered flue gas desulfurization ash |
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